Terminal protection device and battery module

ABSTRACT

Provided are a terminal protection device and a battery module. The terminal protection device includes a base having a bottom portion and side plates connected to peripheral sides of the bottom portion, the side plates and the bottom portion together form an accommodation cavity, and an input port is in communication with the accommodation cavity; each of the side plates is provided with an input port, through which an output electrode passes; each of the side plates is further provided with a connection port, the connection port is in communication with the accommodation cavity such that an external electric connector can pass through the connection port) and be connected to the output electrode; and a protection plate is provided at the connection port, and the protection plate detachably covers the connection port.

CROSS REFERENCES TO RELATED APPLICATIONS

The present application is a continuation of PCT Application No.PCT/CN2020/084341, filed on Apr. 11, 2020 and claims priority from theChinese patent application No. 201920823079.6, entitled “TerminalProtection Device and Battery Module” and filed on Jun. 3, 2019, both ofwhich are incorporated herein by reference in their entireties.

TECHNICAL FIELD

The present application relates to the technical field of energy storageequipment, and particularly to a terminal protection device and abattery module.

BACKGROUND

The module output terminal of the battery module has various structuresin the prior art. Since the connection between the battery modules isrealized through the module output terminals, the module outputterminals are provided with open connecting ports. However, duringtransportation of the battery modules, that is, before the batterymodules are connected to each other, the open connecting ports may causeshort-circuit of the modules, electric shocks of the operators, andother accidents.

Therefore, there is an urgent need for a new terminal protection deviceand battery module.

SUMMARY

The embodiments of the present disclosure provide a terminal protectiondevice and a battery module, which aim to improve the safety performanceof the battery module during the transportation.

One aspect of the embodiments of the present disclosure provides aterminal protection device for a battery module, the terminal protectiondevice including: a base, including a bottom portion and a side plateconnected to a peripheral side of the bottom portion, the side platedefining a receiving cavity together with the bottom portion and beingprovided with an input port through which an output terminal passes, andthe input port being in communication with the receiving cavity, whereinthe side plate is provided with an access port, the access port is incommunication with the receiving cavity so that an external electricalconnector is able to pass through the access port and be connected withthe output terminal, a protection plate is disposed at the access port,and the protection plate is disposed to detachably cover the accessport.

According to one aspect of the present disclosure, the side plate isprovided with at least two access ports spaced apart in acircumferential direction of the side plate, and each of the accessports is provided with a corresponding protection plate therein.

According to one aspect of the present disclosure, the receiving cavityincludes an opening disposed oppositely to the bottom portion, theopening is in communication with the access port and is covered by a topcover, and the top cover is detachably disposed at the opening so as tolimit the protection plate at the access port.

According to one aspect of the present disclosure, the side platefurther includes a connection port spaced apart from the access port inthe circumferential direction of the side plate;

the top cover includes a cover plate and a shielding plate extending outfrom the cover plate, the cover plate covers the opening and theshielding plate shields the connection port correspondingly; and

the shielding plate is provided with a notch extending in a seconddirection, so that at least a part of the shielding plate on a side ofthe notch away from the cover plate can be removed by means of thenotch, and the external electrical connector can pass through theconnection port and be connected with the output terminal.

According to one aspect of the present disclosure, the shielding plateincludes a removable portion, a connecting portion and a corner portionconnecting the removable portion and the connecting portion, theremovable portion, the corner portion and the connecting portion aresuccessively distributed in a third direction, the removable portion islocated at the side of the notch away from the cover plate, theconnecting portion is located between the notch and the cover plate, andthe third direction intersects with the second direction; and

the corner portion has a cross section with a dimension decreasing in adirection from the removable portion to the connecting portion.

According to one aspect of the present disclosure, one of the top coverand the side plate is provided with a first snap member, and the otheris provided with a second snap member, the second snap member is fittedwith the first snap member so that the top cover and the side plate isconnected to each other in a snap fit manner by means of the first snapmember and the second snap member.

According to one aspect of the present disclosure, the first snap memberis formed as a groove, and the second snap member is formed as aprotrusion; the second snap member includes two protrusions spaced apartin the third direction, one of the two protrusions is snapped into thegroove, and the other one is stopped on a top of the side plate or a topof the top cover.

According to one aspect of the present disclosure, the cover plateincludes a flat portion and a resilient portion connected to each otherin the first direction, the resilient portion is U-shaped, and includestwo side arms spaced apart in the first direction, and a bottom armconnected between the side arms.

According to one aspect of the present disclosure, the side plateincludes sliding slots extending in a third direction on inner surfacesfacing the access port; and

the protection plate includes a body portion and sliding plates locatedon two opposite edges of the body portion, and the sliding plates aremovable relative to the sliding slots, so that the protection plate isdetachably disposed in the sliding slots through the sliding plates.

According to one aspect of the present disclosure, the sliding plateseach includes two ends opposite to each other in the third direction anda middle portion located between the two ends, and has a dimension in afirst direction increasing from at least one of the ends to the middleportion.

According to one aspect of the present disclosure, the bottom portion isformed as extending in a third direction, and the bottom portion isprovided with a boss on at least one side in a second direction, so thatthe terminal protection device is snapped into an end plate of thebattery module through the boss.

A further aspect of the embodiments of the present disclosure provides abattery module, including: multiple unit cells, stacked in a firstdirection; an output terminal, electrically connected to the unit cells;an end plate, disposed on one side of the multiple unit cells in thefirst direction and provided with a groove, the groove corresponding tothe output terminal in position; and the above-mentioned terminalprotection device snapped into the groove, and at least part of theoutput terminal extending into the receiving cavity of the terminalprotection deceive through the input port.

In the present disclosure, the side plate of the terminal protectiondevice is provided with the input port, so that the output terminal canextend into the receiving cavity through the input port. The side plateis further provided with the access port, the protection plate isdisposed at the access port, and the protection plate is disposed todetachably cover the access port. When the terminal protection device isapplied to the battery module, during the transportation of the batterymodule, the protection plate can be disposed to cover the access port,thereby preventing the electric leakage caused by the electricalconnection between the output terminal in the receiving cavity and theexternal device, and improving the safety performance of the batterymodule during the transportation. Moreover, the protection plate isdetachably disposed at the access port, and the removal of theprotection plate will not structurally damage other portions of theterminal protection device, which can improve the service life of theterminal protection device, prevent the exposure of the electricportions of the output terminal or of the electrical connector caused bythe damage of the terminal protection device, and thus further improvethe safety performance of the battery module.

BRIEF DESCRIPTION OF THE DRAWINGS

By reading the following detailed description of the non-limitingembodiments with reference to the accompanying drawings, other features,purposes and advantages of the present application will become moreapparent, wherein the same or similar reference signs refer to the sameor similar features.

FIG. 1 is a schematic structural diagram of a battery module accordingto an embodiment of the present application;

FIG. 2 is a schematic diagram of the exploded structure of FIG. 1;

FIG. 3 is a schematic structural diagram of a battery module accordingto another embodiment of the present application;

FIG. 4 is a schematic structural diagram of a terminal protection deviceaccording to an embodiment of the present application;

FIG. 5 is a schematic diagram of the exploded structure of FIG. 4;

FIG. 6 is a schematic structural diagram of a base of a terminalprotection device according to an embodiment of the present application;

FIG. 7 is a schematic structural diagram of a protection plate of aterminal protection device according to an embodiment of the presentapplication;

FIG. 8 is a schematic structural diagram of the protection plate of theterminal protection device according to an embodiment of the presentapplication viewed from another direction;

FIG. 9 is a schematic structural diagram of a top cover of a terminalprotection device according to an embodiment of the present application;

FIG. 10 is a schematic structural diagram of the top cover of theterminal protection device according to an embodiment of the presentapplication viewed from another direction;

FIG. 11 is a top view of FIG. 9;

FIG. 12 is a cross-sectional view taken from Line A-A in FIG. 9;

FIG. 13 is a schematic structural diagram of a battery module accordingto another embodiment of the present application;

FIG. 14 is a schematic structural diagram of a battery module accordingto still another embodiment of the present application.

DESCRIPTION OF REFERENCE SIGNS

-   -   10, terminal protection device;    -   100, base; 110, bottom portion; 111, boss; 112, conductive        fastener; 120, side plate; 121, input port; 122, access port;        123, connection port; 124, groove; 125, sliding slot; 130,        receiving cavity; 131, opening; 140, protection plate; 141, body        portion; 142, sliding plate; 142 a, guide surface;    -   200, top cover; 210, cover plate; 211, flat portion; 212,        resilient portion; 212 a, side arm; 212 b, bottom arm; 220,        shielding plate; 221, removable portion; 222, connecting        portion; 223, corner portion; 230, notch; 240, protrusion;    -   20, unit cell;    -   30, upper cover;    -   40, end plate; 41, groove;    -   60, output terminal; 61, through hole;    -   50, electrical connector;    -   X, first direction;    -   Y, second direction;    -   Z, third direction.

DETAILED DESCRIPTION

The features and exemplary embodiments in various aspects of the presentapplication will be described in detail below. In the following detaileddescription, many specific details are proposed in order to provide acomprehensive understanding of the present application. However, it isobvious to the person skilled in the art that the present applicationcan be implemented without some of these specific details. The followingdescription of the embodiments is only to provide a better understandingof the present application by showing examples of the presentapplication. In the drawings and the following description, at leastpart of the well-known structures and technologies are not shown inorder to avoid unnecessary blurring of the present application; and, forclarity, the size of some structures may be exaggerated. In addition,the features, structures or characteristics described below may becombined in one or more embodiments in any suitable manner.

In the description of the present disclosure, it should be noted that,unless otherwise stated, the meaning of “a plurality” is two or more;the orientations or positional relationships indicated by the terms“upper”, “lower”, “left”, “right”, “inner”, “outer” and the like aremerely for the purpose of describing the present disclosure andsimplifying the description, and are not intended to indicate or implythat the device or component referred to has a particular orientation,is constructed and operated in a particular orientation, and thereforecannot be understood to be a limitation of the present disclosure.Moreover, the terms “first”, “second”, and the like are used fordescriptive purposes only and are not to be construed as indicating orimplying relative importance.

The orientations appearing in the following description are alldirections shown in the accompanying drawings and are not intended tolimit the specific configuration of the present disclosure. In thedescription of the present disclosure, it should be noted that, unlessotherwise specified and stated clearly, the terms “install”, “connect”,and “couple” are to be understood broadly, and may be, for example, afixed connection, a disassemble connection, or an integral connection,and may be a direct connection or an indirect connection via anintermediate medium. The specific meaning of the above terms in thepresent disclosure can be understood by the person skilled in the artaccording to actual circumstance.

In order to better understand the present application, the terminalprotection device and the battery module according to the embodiments ofthe present application will be described in detail below with referenceto FIGS. 1 to 14.

FIG. 1 is a diagram of an assembled battery module provided by anembodiment of the present application, and FIG. 2 is an explosiveschematic diagram of the configuration of FIG. 1. The battery moduleincludes: multiple unit cells 20 stacked in a first direction (Xdirection in FIG. 2); an output terminal 60, electrically connected tothe unit cells 20; an end plate 40, disposed on one side of the multipleunit cells 20 in the first direction and provided with a groove 41,which corresponds to the output terminal 60 in position; and a terminalprotection device 10 snapped into the groove 41 and provided with aninput port 121 through which the output terminal 60 can extend into theterminal protection device 10.

The configuration of the battery module is not limited to above. Forexample, the battery module may further include an upper cover 30disposed on one side of the multiple unit cells 20 in a third direction(Z direction in FIG. 1), the output terminal 60 extends out between theupper cover 30 and the unit cells 20, and the groove 41 is located on aside of the end plate 40 facing the upper cover 30, so that the terminalprotection device 10 can correspond to the output terminal 60 inposition when snapped into the groove 41.

In the battery module according to the embodiments of the presentapplication, the output terminal 60 of the battery module extends intothe terminal protection device 10 and is protected by the terminalprotection device 10, and thus safety hazards caused by the exposure ofthe output terminal 60 can be prevented.

Combing with FIG. 3, when multiple battery modules are connected to eachother, an electrical connector 50 for connecting the multiple batterymodules can extend into the terminal protection device 10 and beconnected to the output terminal 60 within the terminal protectiondevice 10, thereby achieving the interconnection between the batterymodules.

The terminal protection device 10 can be configured in various manners.As shown in FIGS. 4 and 5, the terminal protection device 10 includes abase 100, the base 100 includes a bottom portion 110 and a side plate120 connected to a peripheral side of the bottom portion 110, the sideplate 120 form a receiving cavity 130 together with the bottom portion110 and is provided with an input port 121, through which the outputterminal 60 passes, that is, the input port 121 for passing of theoutput terminal 60 is provided on the side plate 120.

Combining with FIG. 6, in order to improve the stability of the relativeposition between the output terminal 60 and the terminal protectiondevice 10, the output terminal 60 is provided with a through hole 61,the bottom portion 110 is provided with a conductive fastener 112, suchas a conductive nut, and by means of a connecting member passing throughthe through hole 61 and being electrically connected with the conductivefastener 112, the output terminal 60 is fixed to the bottom portion 110.

In order to improve the stability of the relative position between theterminal protection device 10 and the end plate 40, the bottom portion110 of the base 100 is formed as extending in a third direction (Zdirection in FIG. 2), and is provided with a boss 111 on at least oneside in a second direction (Y direction in FIG. 2), so that the terminalprotection device 10 can be interference fit with the groove 41 of theend plate 40 by means of the boss 111, thereby improving the stabilityof the relative position between the terminal protection device 10 andthe end plate 40. In some optional embodiments, the bottom portion 110of the base 100 is provided with bosses 111 on both of the oppositesides in the second direction, so that the base 100 receives moreuniform force, and meanwhile, the stability of the relative positionbetween the terminal protection device 10 and the end plate 40 can befurther ensured.

Further, the side plate 120 is provided with an access port 122, so thatthe external electrical connector 50 can pass through the access port122 and be connected to the output terminal 60 in the receiving cavity130.

The side plate 120 can be configured in various manners. For example,the side plate 120 is not provided with a shield at the access port 122,and when multiple battery modules are connected to each other, theelectrical connector 50 directly passes through the access port 122 andis connected to the output terminal 60 in the receiving cavity 130.

In some optional embodiments, a protection plate 140 is disposed at theaccess port 122, and the protection plate 140 is disposed to detachablycover the access port 122. In these optional embodiments, when multiplebattery modules do not need to be connected to each other, for example,during transportation of the battery modules, the protection plate 140covers the access port 122 so as to prevent the output terminal 60 inthe receiving cavity 130 from being electrically connected with externaldevices and thus prevent occurrence of electric leakage, therebyimproving the safety performance of the battery modules duringtransportation. When the battery modules need to be connected to eachother, the protection plate 140 is removed from the access port 122 sothat the external electrical connector 50 can pass through the accessport 122 and be connected to the output terminal 60.

The protection plate 140 being disposed to detachably cover the accessport 122 means the protection plate 140 and the side plate 120 beingconnected such that the protection plate 140 or the side plate 120 willnot be damaged during the removal process of the protection plate 140,and for example, the protection plate 140 is connected to the accessport 122 in a snap fit manner. Since the protection plate 140 isdetachably disposed at the access port 122, and other parts of theterminal protection device 10 will not be structurally damaged whenremoving the protection plate 140, the service life of the terminalprotection device 10 can be improved, damage of the terminal protectiondevice 10 and thus the resulting exposure of the conductive parts of theoutput terminal 60 or of the electrical connector 50 can be prevented,and thus the safety performance of the battery module can be improved.

Combining with FIGS. 7-8, the protection plate 140 and the connectionport 122 may be detachably connected in various manners. In someoptional embodiments, the side plate 120 includes sliding slots 125extending in the third direction on inner wall surfaces facing theaccess port 122, the protection plate 140 includes a body portion 141and sliding plates 142 located at two opposite edges of the body portion141, and the sliding plates 142 are configured to be movable relative tothe sliding slots 125, so that the protection plate 140 can bedetachably disposed in the sliding slots 125 through the sliding plates142.

In these alternative embodiments, the detachable connection between theprotection plate 140 and the side plate 120 is realized by moving thesliding plates 142 relative to the sliding slots 125. The sliding plates142 are configured to be movable relative to the sliding slots 125. Whenthe output terminal 60 does not need to be connected to the electricalconnector 50, the protection plate 140 is limited in the sliding slots125 through the sliding plates 142; and when the output terminal 60needs to be connected to the electrical connector 50, the protectionplate 140 is slid out of the sliding slots 125 through the slidingplates 142, thereby completing the removal of the protection plate 140.Further, during the removal process of the protection plate 140, theside plate 120 or the protection plate 140 will not be structurallydamaged, and the operation is simple and convenient.

In some optional embodiments, the configuration of the protection plate140 is not limited to above. The sliding plate 142 includes two endsopposite in the third direction and a middle portion between the twoends, and the sliding plate 142 has a dimension in the first directionwhich increases from at least one end to the middle portion.

In these optional embodiments, the dimension of the sliding plate 142increases in the direction from the end to the middle portion, and thusthe middle portion has a dimension larger than that of the end; thus,when the sliding plate 142 enters the sliding slot 125 through its end,this facilitates the mutual alignment of the sliding plate 142 with thesliding slot 125, and the assembly speed of the terminal protectiondevice 10 can be improved.

The protection plate 140 may be configured in various manners so as tohave an increasing dimension. For example, at least one of the two endsis provided with a guide surface 142 a, and the guide surface isinclined toward the body portion 141 in a direction from the middleportion to the end.

As shown in FIGS. 7 and 8, both of the two opposite ends of the slideplate 142 are provided with the guide surfaces 142 a, and both of thetwo opposite ends of the both slide plates 142 on the two edges of thebody portion are provided with the guide surfaces 142 a; thus, theprotection plate 140 includes four guide surfaces 142 a. During theassembling process of the protection plate 140, the protection plate 140can be slid into the sliding slots 125 through either one of the ends inthe third direction, and thus the assembly speed of the terminalprotection device 10 can be further improved.

The number of the access ports 122 is not limited here. In some optionalembodiments, there are at least two access ports 122, the at least twoaccess ports 122 are spaced apart in a circumferential direction of theside plate 120, and at each access port 122, a corresponding protectionplate 140 disposed.

In these optional embodiments, there are at least two access ports 122,and the at least two access ports 122 are located at different positionsof the side plate 120, respectively. When connecting multiple batterymodules, it is convenient for the electrical connector 50 to extend intothe receiving cavity 130 from different positions of the side plate 120,and the access port 122, through which the electrical connector 50extends into the receiving cavity 130 with the shortest extending path,can be selected; thus, the material of the electrical connector 50 canbe saved, the structure of the electrical connector 50 can besimplified, and the space occupied by the electrical connector 50 can bereduced.

Further, the at least two access ports 122 and the input port 121 arespaced apart in the circumferential direction of the side plate 120, andthe input port 121 is located on a side of the side plate 120 facing theoutput terminal 60, so that the output terminal 60 can extend into thereceiving cavity 130 with a shorter extending distance, while optimizingthe distribution of the access ports 122 and the input port 121, andreducing the volume of the side plate 120.

Combining with FIGS. 9 to 12, in some optional embodiments, thereceiving cavity 130 further includes an opening 131 disposed oppositeto the bottom portion 110, the opening 131 is in communication with theaccess port 122 and is covered by a top cover 200, and the top cover 200is detachably disposed at the opening 131, so that the protection plate140 is limited at the access port 122 by the top cover 200.

In these optional embodiments, the top cover 200 is provided at theopening 131 of the receiving cavity 130, the receiving cavity 130 is incommunication with the access port 122, and thus the protection plate140 can be limited at the access port 122 by the top cover 200. Whenmultiple battery modules do not need to be connected to each other, thetop cover 200 is disposed to cover the opening 131, so that theprotection plate 140 is limited at the access port 122 by the top cover200, to ensure the stability of the relative position between theprotection plate 140 and the side plate 120, and the safety performanceof the battery module during transportation. When multiple batterymodules need to be connected to each other, the top cover 200 is removedfrom the opening 131, so that the protection plate 140 can be removedthrough the opening 131 and thus the multiple battery modules can beconnected to each other.

The protection plate 140 can be limited at the access port 122 by thetop cover 200 in various manners. In some optional embodiments, when theprotection plate 140 is movably disposed in the sliding slots 125 on theside plate 120 through the sliding plates 142, the access port 122 is incommunication with the opening 131, and the sliding slots 125 extend tothe opening 131. When the output terminal 60 does not need to beconnected to the electrical connector 50, the protection plate 140 canbe slid from the opening 131 into the sliding slots 125, and then thetop cover 200 is disposed to cover the opening 131, so as to prevent theprotection plate 140 from falling off through the opening 131. When theoutput terminal 60 needs to be connected to the electrical connector 50,the top cover 200 is removed from the opening 131, so that theprotection plate 140 can be slid out of the sliding slots 125 throughthe opening 131 to complete the removal of the protection plate 140.

In some other optional embodiments, when the protection plate 140 isdetachably disposed at the access port 122 by other means, theprotection plate 140 can be limited in position in the third directionby the top cover 200 placed at the opening 131, and thus can be limitedat the access port 122.

The configurations of the side plate 120 and the top cover 200 are notlimited to above. In some optional embodiments, the side plate 120further includes a connection port 123 spaced apart from the access port122 in the circumferential direction of the side plate 120; the topcover 200 includes a cover plate 210 and a shielding plate 220 extendingout from the cover plate 210, the cover plate 210 covers the opening131, and the shielding plate 220 correspondingly shields the connectionport 123; the shielding plate 220 is provided with a notch 230 extendingin the second direction, through which at least a part of the shieldingplate 220 on a side of the notch 230 away from the cover plate 210 canbe removed so that the external electrical connector 50 can pass throughthe connection port 123 and be connected to the output terminal 60.

In these optional embodiments, the side plate 120 is further providedwith the connection port 123 so that the electrical connector 50 can beconnected to the output terminal 60 through any one of the connectionport 123 and the access ports 122. The top cover 200 is provided withthe shielding plate 220, which extends from the top cover 200, canshield the connection port 123, and is provided with the notch 230through which at least part of the shielding plate 220 can be removed,thereby opening the connection port 123. By providing the connectionport 123, the number of connection positions for the electricalconnector 50 on the terminal protection device 10 is further increased,so that the electrical connector 50 can be connected to the outputterminal 60 in the receiving cavity 130 from different directions anddifferent positions.

When multiple battery modules do not need to be connected to each other,the shielding plate 220 can shield the connection port 123, and improvethe safety performance of the multiple battery modules duringtransportation; when multiple battery modules are connected to eachother and the electrical connector 50 needs to be connected to theoutput terminal 60 through the connection port 123, part of theshielding plate 220 can be removed, so that the electrical connector 50can extend into the receiving cavity 130 through the connection port 123and be connected to the output terminal 60.

The shape of the side plate 120 is not limited here; for example, theside plate 120 is roughly in a shape of a quadrangular prism, theconnection port 123 and the input port 121 are disposed on the sideplate 120 oppositely to each other in the first direction, two accessports 122 are disposed on the side plate 120 oppositely to each other inthe second direction. In such manner, the two access ports 122 and oneconnection port 123 are provided at different positions of the sideplate 120 and toward different directions respectively. As shown in FIG.3, FIG. 13 and FIG. 14, the electrical connector 50 can be connected tothe output terminal 60 in three different directions, respectively.

It shall be understood that, in the above-mentioned embodiment, at leastpart of the shielding plate 220 can be removed through the notch 230 invarious manners; in some optional embodiments, the shielding plate 220includes a removable portion 221, a connecting portion 222, and a cornerportion 223 for connecting the removable portion 221 and the connectingportion 222, the removable portion 221, the corner portion 223 and theconnecting portion 222 being successively distributed in the thirddirection, wherein the removable portion 221 is located on a side of thenotch 230 away from the cover plate 210, the connecting portion 222 islocated between the notch 230 and the cover plate 210, and the thirddirection intersects with the second direction; and the corner portion223 has a cross section with a dimension decreasing in a direction fromthe removable portion 221 to the connection portion 222.

In these optional embodiments, the removable portion 221 can be pulledoff from the connecting portion 222 by means of the notch 230 and thecorner portion 223, so that the connection port 123 is opened. Since thecross section of the corner portion 223 has a dimension decreasing inthe direction from the removable portion 221 to the connecting portion222, when the shielding plate 220 is forced to remove the removableportion 221, the portion of the corner portion 223 close to theconnecting portion 222 is easier to be broken and thus the cornerportion 223 tends to not be left on the end surface of the connectingportion 222, thereby improving the flatness of the end surface of theconnecting portion 222, which can reduce the friction loss of theelectrical connector 50 caused by the connecting portion 222 when theelectrical connector 50 extends through the connection port 123, andthus increase the service life of the electrical connector 50.

The cross section of the corner portion 223 may refer to a first planeof the corner portion 223 taken along X-Y plane, or a second plane ofthe corner portion 223 taken along X-Z plane. In some optionalembodiments, the cross section of the corner portion 223 refers to bothof the first plane and the second plane, thereby further ensuring theflatness of the end surface of the connecting portion 222 after theremovable portion 221 is pulled off.

In any of the above embodiments, the top cover 200 can be detachablydisposed at the opening 131 in various manners. For example, one of thetop cover 200 and the side plate 120 is provided with a first snapmember, the other one is provided with a second snap member fitted withthe first snap member, and the top cover 200 and the side plate 120 areconnected to each other in a snap fit manner by the first snap memberand the second snap member.

The configurations of the first snap member and the second snap memberare not limited herein. For example, the first snap member is formed asa groove 124, and the second snap member is formed as a protrusion 240;in case that the second snap member is formed as the protrusion 240, twoprotrusions 240 are provided, so that one of the two protrusions 240 issnapped into the groove 124 while the second protrusion 240 is stoppedon a top of the side plate 120 or a top of the top cover 200.

As shown in FIG. 6, two inner surfaces of the side plate 120 opposite toeach other in the first direction are both provided with the grooves124, and two outer surfaces of the top cover 200 opposite to each otherin the first direction are each provided with two protrusions 240 spacedapart in the third direction, so that one of the two protrusions 240 issnapped into the groove 124 and the other protrusion 240 is stopped onthe top of the side plate 120.

In these optional embodiments, the two inner surfaces of the side plate120 are provided with the grooves 124, the two outer surfaces of the topcover 200 corresponding to the two inner surfaces of the side plate 120are each provided with two protrusions 240, and the protrusions 240correspond to the grooves 124, so that the side plate 120 and the topcover 200 are connected to each other in a snap fit manner by means ofthe grooves 124, the protrusions 240 and the elasticity of the materialsof the side plate 120 and the top cover 200. Each outer surface isprovided with two protrusions 240, one of the protrusions 240 is snappedinto the groove 124, the other protrusion 240 is stopped at the top ofthe side plate 120, and thus the stability of the relative positionbetween the top cover 200 and the side plate 120 can be improved.

In the case that the top cover 200 is provided with two protrusions 240spaced apart in the third direction, the protrusion 240 on a side of thetop cover 200 close to the side plate 120 is provided with a guidesurface, so that the protrusion 240 has a dimension decreasing towardthe side plate 120, which facilitates the protrusion 240 to be snappedinto the groove 124 through the guide surface.

It shall be understood that the positions of the protrusions 240 and thegrooves 124 are not limited to above. For example, two protrusions 240may be provided on each of the two inner surfaces of the side plate 120opposite to each other in the first direction, the grooves 124 may beprovided on both of the two outer surfaces of the top cover 200 oppositeto each other in the first direction, and one of the two protrusions 240is snapped into the groove 124, and the other protrusion 240 is stoppedon the top of the top cover 200.

Further, when the top cover 200 and the side plate 120 are connected toeach other in the snap fit manner by the first snap member and thesecond snap member, in order to improve the elastic deformation of thetop cover 200 in the first direction, the cover plate 210 of the topcover 200 includes a flat portion 211 and a resilient portion 212connected to each other in the first direction, wherein the resilientportion 212 is U-shaped, and includes two side arms 212 a spaced apartin the first direction, and a connecting arm 212 b connected between thetwo side arms 212 a.

In these alternative embodiments, when snapping the top cover 200 ontothe side plate 120, the deformation of the side arms 212 a can increasethe deformation amount of the top cover 200 in the first direction,thereby preventing the damage of the top cover 200 or of the side plate120 when snapping the top cover 200 onto the side plate 120 orseparating the top cover 200 from the side plate 120, and thusincreasing the service life of the top cover 200 and the side plate 120.

The number and configuration of the flat portion 211 and that of theresilient portion 212 are not limited here. For example, there may betwo flat portions 211, and the two flat portions 211 are respectivelydisposed on two sides of the resilient portion 212 in the seconddirection, and are respectively connected to the resilient portion 212through the side arm 212 a.

In some optional embodiments, in order to simplify the forming method ofthe top cover 200, the cover plate 210 includes a flat portion 211 and aresilient portion 212 that are successively distributed in the firstdirection, and the resilient portion 212 is connected to the flatportion 211 through one of the side arms 212 a.

When the top cover 200 is provided with two protrusions 240 on each ofthe two outer surfaces opposite to each other in the first direction,the flat portion 211 is provided with a side portion extending towardthe base 100 on a side away from the resilient portion 212, and the twoprotrusions 240 are provided on an outer surface of the side portion;and one of the side arms 212 a of the resilient portion 212 is connectedto the flat portion 211, and the other side arm 212 a is provided withtwo protrusions 240 on an outer surface thereof.

The number of resilient portions 212 is not limited here, and there maybe at least one resilient portions 212. When there are more than tworesilient portions 212, the more than two resilient portions 212 arespaced apart in the second direction, one of the side arms 212 a of eachresilient portion 212 is connected to the flat portion 211, and theother side arm 212 a of each resilient portion 212 is provided with twoprotrusions 240 on the outer surface.

It shall be understood that the configuration of the top cover 200 isnot limited to above. For example, when the groove 124 is provided onthe top cover 200, the outer surface of the side portion of the flatportion 211 on the side away from the resilient portion 212 is providedwith the groove 124, and the side arm 212 a of the resilient portion 212away from the flat portion 211 is also provided with the groove 124 onthe outer surface.

The present application can be implemented in other specific formswithout departing from its spirit and essential characteristics. Forexample, the algorithm described in the specific embodiment can bemodified, and the system architecture does not deviate from the basicspirit of the application. Therefore, the current embodiments areregarded as illustrative rather than restrictive in all aspects, and thescope of the present application is defined by the appended claimsrather than the foregoing description, and all the modifications fallingwithin the meaning and equivalents of the claims are included in thescope of the present application.

What is claimed is:
 1. A terminal protection device for a batterymodule, comprising: a base, comprising a bottom portion and a side plateconnected to a peripheral side of the bottom portion, the side platedefining a receiving cavity together with the bottom portion and beingprovided with an input port through which an output terminal passes, andthe input port being in communication with the receiving cavity, whereinthe side plate is provided with an access port, the access port is incommunication with the receiving cavity so that an external electricalconnector is able to pass through the access port and be connected withthe output terminal, a protection plate is disposed at the access port,and the protection plate is disposed to detachably cover the accessport.
 2. The terminal protection device according to claim 1, whereinthe side plate is provided with at least two access ports spaced apartin a circumferential direction of the side plate, and each of the accessports is provided with a corresponding protection plate therein.
 3. Theterminal protection device according to claim 1, wherein the receivingcavity comprises an opening disposed oppositely to the bottom portion,the opening is in communication with the access port and is covered by atop cover, and the top cover is detachably disposed at the opening so asto limit the protection plate at the access port.
 4. The terminalprotection device according to claim 3, wherein: the side plate furthercomprises a connection port spaced apart from the access port in thecircumferential direction of the side plate; the top cover comprises acover plate and a shielding plate extending out from the cover plate,the cover plate covers the opening and the shielding plate shields theconnection port correspondingly; and the shielding plate is providedwith a notch extending in a second direction, so that at least a part ofthe shielding plate on a side of the notch away from the cover plate canbe removed by means of the notch, and the external electrical connectorcan pass through the connection port and be connected with the outputterminal.
 5. The terminal protection device according to claim 4,wherein: the shielding plate comprises a removable portion, a connectingportion and a corner portion connecting the removable portion and theconnecting portion, the removable portion, the corner portion and theconnecting portion are successively distributed in a third direction,the removable portion is located at the side of the notch away from thecover plate, the connecting portion is located between the notch and thecover plate, and the third direction intersects with the seconddirection; and the corner portion has a cross section with a dimensiondecreasing in a direction from the removable portion to the connectingportion.
 6. The terminal protection device according to claim 3, whereinone of the top cover and the side plate is provided with a first snapmember, and the other is provided with a second snap member, the secondsnap member is fitted with the first snap member so that the top coverand the side plate is connected to each other in a snap fit manner bymeans of the first snap member and the second snap member.
 7. Theterminal protection device according to claim 6, wherein the first snapmember is formed as a groove, and the second snap member is formed as aprotrusion; the second snap member comprises two protrusions spacedapart in the third direction, one of the two protrusions is snapped intothe groove, and the other one is stopped on a top of the side plate or atop of the top cover.
 8. The terminal protection device according toclaim 4, wherein the cover plate comprises a flat portion and aresilient portion connected to each other in the first direction, theresilient portion is U-shaped, and comprises two side arms spaced apartin the first direction, and a bottom arm connected between the sidearms.
 9. The terminal protection device according to claim 1, wherein:the side plate comprises sliding slots extending in a third direction oninner surfaces facing the access port; and the protection platecomprises a body portion and sliding plates located on two oppositeedges of the body portion, and the sliding plates are movable relativeto the sliding slots, so that the protection plate is detachablydisposed in the sliding slots through the sliding plates.
 10. Theterminal protection device according to claim 9, wherein the slidingplates each comprises two ends opposite to each other in the thirddirection and a middle portion located between the two ends, and has adimension in a first direction increasing from at least one of the endsto the middle portion.
 11. The terminal protection device according toclaim 1, wherein the bottom portion is formed as extending in a thirddirection, and the bottom portion is provided with a boss on at leastone side in a second direction, so that the terminal protection deviceis snapped into an end plate of the battery module through the boss. 12.A battery module, comprising: multiple unit cells, stacked in a firstdirection; an output terminal, electrically connected to the unit cells;an end plate, disposed on one side of the multiple unit cells in thefirst direction and provided with a groove, the groove corresponding tothe output terminal in position; and the terminal protection deviceaccording to claim 1 snapped into the groove, and at least part of theoutput terminal extending into the receiving cavity of the terminalprotection deceive through the input port.
 13. The battery moduleaccording to claim 12, wherein the side plate is provided with at leasttwo access ports spaced apart in a circumferential direction of the sideplate, and each of the access ports is provided with a correspondingprotection plate therein.
 14. The battery module according to claim 12,wherein the receiving cavity comprises an opening disposed oppositely tothe bottom portion, the opening is in communication with the access portand is covered by a top cover, and the top cover is detachably disposedat the opening so as to limit the protection plate at the access port.15. The battery module according to claim 14, wherein: the side platefurther comprises a connection port spaced apart from the access port inthe circumferential direction of the side plate; the top cover comprisesa cover plate and a shielding plate extending out from the cover plate,the cover plate covers the opening and the shielding plate shields theconnection port correspondingly; and the shielding plate is providedwith a notch extending in a second direction, so that at least a part ofthe shielding plate on a side of the notch away from the cover plate canbe removed by means of the notch, and the external electrical connectorcan pass through the connection port and be connected with the outputterminal.
 16. The battery module according to claim 15, wherein: Theshielding plate comprises a removable portion, a connecting portion anda corner portion connecting the removable portion and the connectingportion, the removable portion, the corner portion and the connectingportion are successively distributed in a third direction, the removableportion is located at the side of the notch away from the cover plate,the connecting portion is located between the notch and the cover plate,and the third direction intersects with the second direction; and thecorner portion has a cross section with a dimension decreasing in adirection from the removable portion to the connecting portion.
 17. Thebattery module according to claim 14, wherein one of the top cover andthe side plate is provided with a first snap member, and the other isprovided with a second snap member, the second snap member is fittedwith the first snap member so that the top cover and the side plate isconnected to each other in a snap fit manner by means of the first snapmember and the second snap member.
 18. The battery module according toclaim 17, wherein the first snap member is formed as a groove, and thesecond snap member is formed as a protrusion; the second snap membercomprises two protrusions spaced apart in the third direction, one ofthe two protrusions is snapped into the groove, and the other one isstopped on a top of the side plate or a top of the top cover.
 19. Thebattery module according to claim 15, wherein the cover plate comprisesa flat portion and a resilient portion connected to each other in thefirst direction, the resilient portion is U-shaped, and comprises twoside arms spaced apart in the first direction, and a bottom armconnected between the side arms.
 20. The battery module according toclaim 12, wherein: the side plate comprises sliding slots extending in athird direction on inner surfaces facing the access port; and theprotection plate comprises a body portion and sliding plates located ontwo opposite edges of the body portion, and the sliding plates aremovable relative to the sliding slots, so that the protection plate isdetachably disposed in the sliding slots through the sliding plates.